Efeito do teor de titânio no endurecimento por precipitação em uma liga à base de Co-Ni e consequências nas propriedades mecânicas
Resumen
The alloy subject of this study, designated by the Unified Numbering System,
R30035 and internationally known as MP35N®, is a 35 Ni – 33.5 Co – 20.5 Cr – 9.5
Mo alloy with very-high mechanical strength, ductility, and corrosion resistance.
Therefore, it is commonly found under extreme conditions in aerospace, medical,
motorsport and petrochemical industry components. Due to this wide range of
applications, there are different international standards and specifications for the
alloy, which define limits on mechanical properties, or specific ranges of chemical
composition for the amplification of some particular property, whether mechanical
resistance or corrosion. Changes in the chemical composition have greater potential
for altering the alloy's further processing. Specifically, the restrictions of the
maximum titanium content in 0.1% compared to the usual 1.0%, in some
applications, lead to drastic changes in the plastic behavior of the material, and, in
its solidification process, observed in this work. To study the effects of this variation
on the chemical composition of the alloy, on the mechanical properties, ingots were
produced on a pilot scale in a VIM furnace, which were subsequently hot-formed,
solubilized and cold-worked. The basic mechanical properties of the materials were
evaluated through tensile, hardness and Charpy-V impact tests at room
temperature, after aging in the laboratory. The main difference was the material
ductility variation associated with the presence of titanium carbides.
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